/* * Copyright 2016 The WebRTC project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include "webrtc/api/rtcstatscollector.h" #include #include #include #include #include "webrtc/api/jsepsessiondescription.h" #include "webrtc/api/mediastream.h" #include "webrtc/api/mediastreamtrack.h" #include "webrtc/api/rtpparameters.h" #include "webrtc/api/stats/rtcstats_objects.h" #include "webrtc/api/stats/rtcstatsreport.h" #include "webrtc/api/test/mock_datachannel.h" #include "webrtc/api/test/mock_peerconnection.h" #include "webrtc/api/test/mock_webrtcsession.h" #include "webrtc/api/test/rtcstatsobtainer.h" #include "webrtc/base/checks.h" #include "webrtc/base/fakeclock.h" #include "webrtc/base/fakesslidentity.h" #include "webrtc/base/gunit.h" #include "webrtc/base/logging.h" #include "webrtc/base/socketaddress.h" #include "webrtc/base/thread_checker.h" #include "webrtc/base/timedelta.h" #include "webrtc/base/timeutils.h" #include "webrtc/logging/rtc_event_log/rtc_event_log.h" #include "webrtc/media/base/fakemediaengine.h" #include "webrtc/media/base/test/mock_mediachannel.h" #include "webrtc/p2p/base/p2pconstants.h" #include "webrtc/p2p/base/port.h" using testing::_; using testing::Invoke; using testing::Return; using testing::ReturnNull; using testing::ReturnRef; using testing::SetArgPointee; namespace webrtc { // These are used by gtest code, such as if |EXPECT_EQ| fails. void PrintTo(const RTCCertificateStats& stats, ::std::ostream* os) { *os << stats.ToString(); } void PrintTo(const RTCCodecStats& stats, ::std::ostream* os) { *os << stats.ToString(); } void PrintTo(const RTCDataChannelStats& stats, ::std::ostream* os) { *os << stats.ToString(); } void PrintTo(const RTCIceCandidatePairStats& stats, ::std::ostream* os) { *os << stats.ToString(); } void PrintTo(const RTCLocalIceCandidateStats& stats, ::std::ostream* os) { *os << stats.ToString(); } void PrintTo(const RTCRemoteIceCandidateStats& stats, ::std::ostream* os) { *os << stats.ToString(); } void PrintTo(const RTCPeerConnectionStats& stats, ::std::ostream* os) { *os << stats.ToString(); } void PrintTo(const RTCMediaStreamStats& stats, ::std::ostream* os) { *os << stats.ToString(); } void PrintTo(const RTCMediaStreamTrackStats& stats, ::std::ostream* os) { *os << stats.ToString(); } void PrintTo(const RTCInboundRTPStreamStats& stats, ::std::ostream* os) { *os << stats.ToString(); } void PrintTo(const RTCOutboundRTPStreamStats& stats, ::std::ostream* os) { *os << stats.ToString(); } void PrintTo(const RTCTransportStats& stats, ::std::ostream* os) { *os << stats.ToString(); } namespace { const int64_t kGetStatsReportTimeoutMs = 1000; const bool kDefaultRtcpEnabled = false; const bool kDefaultSrtpRequired = true; struct CertificateInfo { rtc::scoped_refptr certificate; std::vector ders; std::vector pems; std::vector fingerprints; }; std::unique_ptr CreateFakeCertificateAndInfoFromDers( const std::vector& ders) { RTC_CHECK(!ders.empty()); std::unique_ptr info(new CertificateInfo()); info->ders = ders; for (const std::string& der : ders) { info->pems.push_back(rtc::SSLIdentity::DerToPem( "CERTIFICATE", reinterpret_cast(der.c_str()), der.length())); } info->certificate = rtc::RTCCertificate::Create(std::unique_ptr( new rtc::FakeSSLIdentity(rtc::FakeSSLCertificate(info->pems)))); // Strip header/footer and newline characters of PEM strings. for (size_t i = 0; i < info->pems.size(); ++i) { rtc::replace_substrs("-----BEGIN CERTIFICATE-----", 27, "", 0, &info->pems[i]); rtc::replace_substrs("-----END CERTIFICATE-----", 25, "", 0, &info->pems[i]); rtc::replace_substrs("\n", 1, "", 0, &info->pems[i]); } // Fingerprint of leaf certificate. std::unique_ptr fp( rtc::SSLFingerprint::Create("sha-1", &info->certificate->ssl_certificate())); EXPECT_TRUE(fp); info->fingerprints.push_back(fp->GetRfc4572Fingerprint()); // Fingerprints of the rest of the chain. std::unique_ptr chain = info->certificate->ssl_certificate().GetChain(); if (chain) { for (size_t i = 0; i < chain->GetSize(); i++) { fp.reset(rtc::SSLFingerprint::Create("sha-1", &chain->Get(i))); EXPECT_TRUE(fp); info->fingerprints.push_back(fp->GetRfc4572Fingerprint()); } } EXPECT_EQ(info->ders.size(), info->fingerprints.size()); return info; } std::unique_ptr CreateFakeCandidate( const std::string& hostname, int port, const std::string& protocol, const std::string& candidate_type, uint32_t priority) { std::unique_ptr candidate(new cricket::Candidate()); candidate->set_address(rtc::SocketAddress(hostname, port)); candidate->set_protocol(protocol); candidate->set_type(candidate_type); candidate->set_priority(priority); return candidate; } class FakeAudioProcessorForStats : public rtc::RefCountedObject { public: FakeAudioProcessorForStats( AudioProcessorInterface::AudioProcessorStats stats) : stats_(stats) { } void GetStats(AudioProcessorInterface::AudioProcessorStats* stats) override { *stats = stats_; } private: AudioProcessorInterface::AudioProcessorStats stats_; }; class FakeAudioTrackForStats : public MediaStreamTrack { public: static rtc::scoped_refptr Create( const std::string& id, MediaStreamTrackInterface::TrackState state, int signal_level, rtc::scoped_refptr processor) { rtc::scoped_refptr audio_track_stats( new rtc::RefCountedObject( id, signal_level, processor)); audio_track_stats->set_state(state); return audio_track_stats; } FakeAudioTrackForStats( const std::string& id, int signal_level, rtc::scoped_refptr processor) : MediaStreamTrack(id), signal_level_(signal_level), processor_(processor) { } std::string kind() const override { return MediaStreamTrackInterface::kAudioKind; } webrtc::AudioSourceInterface* GetSource() const override { return nullptr; } void AddSink(webrtc::AudioTrackSinkInterface* sink) override {} void RemoveSink(webrtc::AudioTrackSinkInterface* sink) override {} bool GetSignalLevel(int* level) override { *level = signal_level_; return true; } rtc::scoped_refptr GetAudioProcessor() override { return processor_; } private: int signal_level_; rtc::scoped_refptr processor_; }; class FakeVideoTrackSourceForStats : public rtc::RefCountedObject { public: FakeVideoTrackSourceForStats(VideoTrackSourceInterface::Stats stats) : stats_(stats) { } MediaSourceInterface::SourceState state() const override { return MediaSourceInterface::kLive; } bool remote() const override { return false; } void RegisterObserver(ObserverInterface* observer) override {} void UnregisterObserver(ObserverInterface* observer) override {} void AddOrUpdateSink(rtc::VideoSinkInterface* sink, const rtc::VideoSinkWants& wants) override {} void RemoveSink(rtc::VideoSinkInterface* sink) override { } bool is_screencast() const override { return false; } rtc::Optional needs_denoising() const override { return rtc::Optional(); } bool GetStats(VideoTrackSourceInterface::Stats* stats) override { *stats = stats_; return true; } private: VideoTrackSourceInterface::Stats stats_; }; class FakeVideoTrackForStats : public MediaStreamTrack { public: static rtc::scoped_refptr Create( const std::string& id, MediaStreamTrackInterface::TrackState state, rtc::scoped_refptr source) { rtc::scoped_refptr video_track( new rtc::RefCountedObject(id, source)); video_track->set_state(state); return video_track; } FakeVideoTrackForStats( const std::string& id, rtc::scoped_refptr source) : MediaStreamTrack(id), source_(source) { } std::string kind() const override { return MediaStreamTrackInterface::kVideoKind; } VideoTrackSourceInterface* GetSource() const override { return source_; } private: rtc::scoped_refptr source_; }; class RTCStatsCollectorTestHelper : public SetSessionDescriptionObserver { public: RTCStatsCollectorTestHelper() : worker_thread_(rtc::Thread::Current()), network_thread_(rtc::Thread::Current()), media_engine_(new cricket::FakeMediaEngine()), channel_manager_( new cricket::ChannelManager(media_engine_, worker_thread_, network_thread_)), media_controller_( MediaControllerInterface::Create(cricket::MediaConfig(), worker_thread_, channel_manager_.get(), &event_log_)), session_(media_controller_.get()), pc_() { // Default return values for mocks. EXPECT_CALL(pc_, local_streams()).WillRepeatedly(Return(nullptr)); EXPECT_CALL(pc_, remote_streams()).WillRepeatedly(Return(nullptr)); EXPECT_CALL(pc_, session()).WillRepeatedly(Return(&session_)); EXPECT_CALL(pc_, sctp_data_channels()).WillRepeatedly( ReturnRef(data_channels_)); EXPECT_CALL(session_, video_channel()).WillRepeatedly(ReturnNull()); EXPECT_CALL(session_, voice_channel()).WillRepeatedly(ReturnNull()); EXPECT_CALL(session_, GetStats(_)).WillRepeatedly(ReturnNull()); EXPECT_CALL(session_, GetLocalCertificate(_, _)).WillRepeatedly( Return(false)); EXPECT_CALL(session_, GetRemoteSSLCertificate_ReturnsRawPointer(_)) .WillRepeatedly(Return(nullptr)); } rtc::ScopedFakeClock& fake_clock() { return fake_clock_; } rtc::Thread* worker_thread() { return worker_thread_; } rtc::Thread* network_thread() { return network_thread_; } cricket::FakeMediaEngine* media_engine() { return media_engine_; } MockWebRtcSession& session() { return session_; } MockPeerConnection& pc() { return pc_; } std::vector>& data_channels() { return data_channels_; } // SetSessionDescriptionObserver overrides. void OnSuccess() override {} void OnFailure(const std::string& error) override { RTC_NOTREACHED() << error; } private: rtc::ScopedFakeClock fake_clock_; RtcEventLogNullImpl event_log_; rtc::Thread* const worker_thread_; rtc::Thread* const network_thread_; cricket::FakeMediaEngine* media_engine_; std::unique_ptr channel_manager_; std::unique_ptr media_controller_; MockWebRtcSession session_; MockPeerConnection pc_; std::vector> data_channels_; }; class RTCTestStats : public RTCStats { public: WEBRTC_RTCSTATS_DECL(); RTCTestStats(const std::string& id, int64_t timestamp_us) : RTCStats(id, timestamp_us), dummy_stat("dummyStat") {} RTCStatsMember dummy_stat; }; WEBRTC_RTCSTATS_IMPL(RTCTestStats, RTCStats, "test-stats", &dummy_stat); // Overrides the stats collection to verify thread usage and that the resulting // partial reports are merged. class FakeRTCStatsCollector : public RTCStatsCollector, public RTCStatsCollectorCallback { public: static rtc::scoped_refptr Create( PeerConnection* pc, int64_t cache_lifetime_us) { return rtc::scoped_refptr( new rtc::RefCountedObject( pc, cache_lifetime_us)); } // RTCStatsCollectorCallback implementation. void OnStatsDelivered( const rtc::scoped_refptr& report) override { EXPECT_TRUE(signaling_thread_->IsCurrent()); rtc::CritScope cs(&lock_); delivered_report_ = report; } void VerifyThreadUsageAndResultsMerging() { GetStatsReport(rtc::scoped_refptr(this)); EXPECT_TRUE_WAIT(HasVerifiedResults(), kGetStatsReportTimeoutMs); } bool HasVerifiedResults() { EXPECT_TRUE(signaling_thread_->IsCurrent()); rtc::CritScope cs(&lock_); if (!delivered_report_) return false; EXPECT_EQ(produced_on_signaling_thread_, 1); EXPECT_EQ(produced_on_worker_thread_, 1); EXPECT_EQ(produced_on_network_thread_, 1); EXPECT_TRUE(delivered_report_->Get("SignalingThreadStats")); EXPECT_TRUE(delivered_report_->Get("WorkerThreadStats")); EXPECT_TRUE(delivered_report_->Get("NetworkThreadStats")); produced_on_signaling_thread_ = 0; produced_on_worker_thread_ = 0; produced_on_network_thread_ = 0; delivered_report_ = nullptr; return true; } protected: FakeRTCStatsCollector( PeerConnection* pc, int64_t cache_lifetime) : RTCStatsCollector(pc, cache_lifetime), signaling_thread_(pc->session()->signaling_thread()), worker_thread_(pc->session()->worker_thread()), network_thread_(pc->session()->network_thread()) { } void ProducePartialResultsOnSignalingThread(int64_t timestamp_us) override { EXPECT_TRUE(signaling_thread_->IsCurrent()); { rtc::CritScope cs(&lock_); EXPECT_FALSE(delivered_report_); ++produced_on_signaling_thread_; } rtc::scoped_refptr signaling_report = RTCStatsReport::Create(0); signaling_report->AddStats(std::unique_ptr( new RTCTestStats("SignalingThreadStats", timestamp_us))); AddPartialResults(signaling_report); } void ProducePartialResultsOnWorkerThread(int64_t timestamp_us) override { EXPECT_TRUE(worker_thread_->IsCurrent()); { rtc::CritScope cs(&lock_); EXPECT_FALSE(delivered_report_); ++produced_on_worker_thread_; } rtc::scoped_refptr worker_report = RTCStatsReport::Create(0); worker_report->AddStats(std::unique_ptr( new RTCTestStats("WorkerThreadStats", timestamp_us))); AddPartialResults(worker_report); } void ProducePartialResultsOnNetworkThread(int64_t timestamp_us) override { EXPECT_TRUE(network_thread_->IsCurrent()); { rtc::CritScope cs(&lock_); EXPECT_FALSE(delivered_report_); ++produced_on_network_thread_; } rtc::scoped_refptr network_report = RTCStatsReport::Create(0); network_report->AddStats(std::unique_ptr( new RTCTestStats("NetworkThreadStats", timestamp_us))); AddPartialResults(network_report); } private: rtc::Thread* const signaling_thread_; rtc::Thread* const worker_thread_; rtc::Thread* const network_thread_; rtc::CriticalSection lock_; rtc::scoped_refptr delivered_report_; int produced_on_signaling_thread_ = 0; int produced_on_worker_thread_ = 0; int produced_on_network_thread_ = 0; }; class RTCStatsCollectorTest : public testing::Test { public: RTCStatsCollectorTest() : test_(new rtc::RefCountedObject()), collector_(RTCStatsCollector::Create( &test_->pc(), 50 * rtc::kNumMicrosecsPerMillisec)) { } rtc::scoped_refptr GetStatsReport() { rtc::scoped_refptr callback = RTCStatsObtainer::Create(); collector_->GetStatsReport(callback); EXPECT_TRUE_WAIT(callback->report(), kGetStatsReportTimeoutMs); int64_t after = rtc::TimeUTCMicros(); for (const RTCStats& stats : *callback->report()) { EXPECT_LE(stats.timestamp_us(), after); } return callback->report(); } const RTCIceCandidateStats* ExpectReportContainsCandidate( const rtc::scoped_refptr& report, const cricket::Candidate& candidate, bool is_local) { const RTCStats* stats = report->Get("RTCIceCandidate_" + candidate.id()); EXPECT_TRUE(stats); const RTCIceCandidateStats* candidate_stats; if (is_local) candidate_stats = &stats->cast_to(); else candidate_stats = &stats->cast_to(); EXPECT_EQ(*candidate_stats->ip, candidate.address().ipaddr().ToString()); EXPECT_EQ(*candidate_stats->port, static_cast(candidate.address().port())); EXPECT_EQ(*candidate_stats->protocol, candidate.protocol()); EXPECT_EQ(*candidate_stats->candidate_type, CandidateTypeToRTCIceCandidateTypeForTesting(candidate.type())); EXPECT_EQ(*candidate_stats->priority, static_cast(candidate.priority())); // TODO(hbos): Define candidate_stats->url. crbug.com/632723 EXPECT_FALSE(candidate_stats->url.is_defined()); return candidate_stats; } void ExpectReportContainsCertificateInfo( const rtc::scoped_refptr& report, const CertificateInfo& cert_info) { for (size_t i = 0; i < cert_info.fingerprints.size(); ++i) { const RTCStats* stats = report->Get( "RTCCertificate_" + cert_info.fingerprints[i]); ASSERT_TRUE(stats); const RTCCertificateStats& cert_stats = stats->cast_to(); EXPECT_EQ(*cert_stats.fingerprint, cert_info.fingerprints[i]); EXPECT_EQ(*cert_stats.fingerprint_algorithm, "sha-1"); EXPECT_EQ(*cert_stats.base64_certificate, cert_info.pems[i]); if (i + 1 < cert_info.fingerprints.size()) { EXPECT_EQ(*cert_stats.issuer_certificate_id, "RTCCertificate_" + cert_info.fingerprints[i + 1]); } else { EXPECT_FALSE(cert_stats.issuer_certificate_id.is_defined()); } } } protected: rtc::scoped_refptr test_; rtc::scoped_refptr collector_; }; TEST_F(RTCStatsCollectorTest, SingleCallback) { rtc::scoped_refptr result; collector_->GetStatsReport(RTCStatsObtainer::Create(&result)); EXPECT_TRUE_WAIT(result, kGetStatsReportTimeoutMs); } TEST_F(RTCStatsCollectorTest, MultipleCallbacks) { rtc::scoped_refptr a; rtc::scoped_refptr b; rtc::scoped_refptr c; collector_->GetStatsReport(RTCStatsObtainer::Create(&a)); collector_->GetStatsReport(RTCStatsObtainer::Create(&b)); collector_->GetStatsReport(RTCStatsObtainer::Create(&c)); EXPECT_TRUE_WAIT(a, kGetStatsReportTimeoutMs); EXPECT_TRUE_WAIT(b, kGetStatsReportTimeoutMs); EXPECT_TRUE_WAIT(c, kGetStatsReportTimeoutMs); EXPECT_EQ(a.get(), b.get()); EXPECT_EQ(b.get(), c.get()); } TEST_F(RTCStatsCollectorTest, CachedStatsReports) { // Caching should ensure |a| and |b| are the same report. rtc::scoped_refptr a = GetStatsReport(); rtc::scoped_refptr b = GetStatsReport(); EXPECT_EQ(a.get(), b.get()); // Invalidate cache by clearing it. collector_->ClearCachedStatsReport(); rtc::scoped_refptr c = GetStatsReport(); EXPECT_NE(b.get(), c.get()); // Invalidate cache by advancing time. test_->fake_clock().AdvanceTime(rtc::TimeDelta::FromMilliseconds(51)); rtc::scoped_refptr d = GetStatsReport(); EXPECT_TRUE(d); EXPECT_NE(c.get(), d.get()); } TEST_F(RTCStatsCollectorTest, MultipleCallbacksWithInvalidatedCacheInBetween) { rtc::scoped_refptr a; rtc::scoped_refptr b; rtc::scoped_refptr c; collector_->GetStatsReport(RTCStatsObtainer::Create(&a)); collector_->GetStatsReport(RTCStatsObtainer::Create(&b)); // Cache is invalidated after 50 ms. test_->fake_clock().AdvanceTime(rtc::TimeDelta::FromMilliseconds(51)); collector_->GetStatsReport(RTCStatsObtainer::Create(&c)); EXPECT_TRUE_WAIT(a, kGetStatsReportTimeoutMs); EXPECT_TRUE_WAIT(b, kGetStatsReportTimeoutMs); EXPECT_TRUE_WAIT(c, kGetStatsReportTimeoutMs); EXPECT_EQ(a.get(), b.get()); // The act of doing |AdvanceTime| processes all messages. If this was not the // case we might not require |c| to be fresher than |b|. EXPECT_NE(c.get(), b.get()); } TEST_F(RTCStatsCollectorTest, CollectRTCCertificateStatsSingle) { std::unique_ptr local_certinfo = CreateFakeCertificateAndInfoFromDers( std::vector({ "(local) single certificate" })); std::unique_ptr remote_certinfo = CreateFakeCertificateAndInfoFromDers( std::vector({ "(remote) single certificate" })); // Mock the session to return the local and remote certificates. EXPECT_CALL(test_->session(), GetStats(_)).WillRepeatedly(Invoke( [this](const ChannelNamePairs&) { std::unique_ptr stats(new SessionStats()); stats->transport_stats["transport"].transport_name = "transport"; return stats; })); EXPECT_CALL(test_->session(), GetLocalCertificate(_, _)).WillRepeatedly( Invoke([this, &local_certinfo](const std::string& transport_name, rtc::scoped_refptr* certificate) { if (transport_name == "transport") { *certificate = local_certinfo->certificate; return true; } return false; })); EXPECT_CALL(test_->session(), GetRemoteSSLCertificate_ReturnsRawPointer(_)).WillRepeatedly(Invoke( [this, &remote_certinfo](const std::string& transport_name) { if (transport_name == "transport") return remote_certinfo->certificate->ssl_certificate().GetReference(); return static_cast(nullptr); })); rtc::scoped_refptr report = GetStatsReport(); ExpectReportContainsCertificateInfo(report, *local_certinfo.get()); ExpectReportContainsCertificateInfo(report, *remote_certinfo.get()); } TEST_F(RTCStatsCollectorTest, CollectRTCCodecStats) { MockVoiceMediaChannel* voice_media_channel = new MockVoiceMediaChannel(); cricket::VoiceChannel voice_channel( test_->worker_thread(), test_->network_thread(), test_->media_engine(), voice_media_channel, nullptr, "VoiceContentName", kDefaultRtcpEnabled, kDefaultSrtpRequired); MockVideoMediaChannel* video_media_channel = new MockVideoMediaChannel(); cricket::VideoChannel video_channel( test_->worker_thread(), test_->network_thread(), video_media_channel, nullptr, "VideoContentName", kDefaultRtcpEnabled, kDefaultSrtpRequired); // Audio cricket::VoiceMediaInfo voice_media_info; RtpCodecParameters inbound_audio_codec; inbound_audio_codec.payload_type = 1; inbound_audio_codec.mime_type = "opus"; inbound_audio_codec.clock_rate = 1337; voice_media_info.receive_codecs.insert( std::make_pair(inbound_audio_codec.payload_type, inbound_audio_codec)); RtpCodecParameters outbound_audio_codec; outbound_audio_codec.payload_type = 2; outbound_audio_codec.mime_type = "isac"; outbound_audio_codec.clock_rate = 1338; voice_media_info.send_codecs.insert( std::make_pair(outbound_audio_codec.payload_type, outbound_audio_codec)); EXPECT_CALL(*voice_media_channel, GetStats(_)) .WillOnce(DoAll(SetArgPointee<0>(voice_media_info), Return(true))); // Video cricket::VideoMediaInfo video_media_info; RtpCodecParameters inbound_video_codec; inbound_video_codec.payload_type = 3; inbound_video_codec.mime_type = "H264"; inbound_video_codec.clock_rate = 1339; video_media_info.receive_codecs.insert( std::make_pair(inbound_video_codec.payload_type, inbound_video_codec)); RtpCodecParameters outbound_video_codec; outbound_video_codec.payload_type = 4; outbound_video_codec.mime_type = "VP8"; outbound_video_codec.clock_rate = 1340; video_media_info.send_codecs.insert( std::make_pair(outbound_video_codec.payload_type, outbound_video_codec)); EXPECT_CALL(*video_media_channel, GetStats(_)) .WillOnce(DoAll(SetArgPointee<0>(video_media_info), Return(true))); SessionStats session_stats; session_stats.proxy_to_transport["VoiceContentName"] = "TransportName"; session_stats.proxy_to_transport["VideoContentName"] = "TransportName"; session_stats.transport_stats["TransportName"].transport_name = "TransportName"; EXPECT_CALL(test_->session(), GetStats(_)).WillRepeatedly(Invoke( [&session_stats](const ChannelNamePairs&) { return std::unique_ptr(new SessionStats(session_stats)); })); EXPECT_CALL(test_->session(), voice_channel()) .WillRepeatedly(Return(&voice_channel)); EXPECT_CALL(test_->session(), video_channel()) .WillRepeatedly(Return(&video_channel)); rtc::scoped_refptr report = GetStatsReport(); RTCCodecStats expected_inbound_audio_codec( "RTCCodec_InboundAudio_1", report->timestamp_us()); expected_inbound_audio_codec.payload_type = 1; expected_inbound_audio_codec.codec = "audio/opus"; expected_inbound_audio_codec.clock_rate = 1337; RTCCodecStats expected_outbound_audio_codec( "RTCCodec_OutboundAudio_2", report->timestamp_us()); expected_outbound_audio_codec.payload_type = 2; expected_outbound_audio_codec.codec = "audio/isac"; expected_outbound_audio_codec.clock_rate = 1338; RTCCodecStats expected_inbound_video_codec( "RTCCodec_InboundVideo_3", report->timestamp_us()); expected_inbound_video_codec.payload_type = 3; expected_inbound_video_codec.codec = "video/H264"; expected_inbound_video_codec.clock_rate = 1339; RTCCodecStats expected_outbound_video_codec( "RTCCodec_OutboundVideo_4", report->timestamp_us()); expected_outbound_video_codec.payload_type = 4; expected_outbound_video_codec.codec = "video/VP8"; expected_outbound_video_codec.clock_rate = 1340; ASSERT(report->Get(expected_inbound_audio_codec.id())); EXPECT_EQ(expected_inbound_audio_codec, report->Get(expected_inbound_audio_codec.id())->cast_to< RTCCodecStats>()); ASSERT(report->Get(expected_outbound_audio_codec.id())); EXPECT_EQ(expected_outbound_audio_codec, report->Get(expected_outbound_audio_codec.id())->cast_to< RTCCodecStats>()); ASSERT(report->Get(expected_inbound_video_codec.id())); EXPECT_EQ(expected_inbound_video_codec, report->Get(expected_inbound_video_codec.id())->cast_to< RTCCodecStats>()); ASSERT(report->Get(expected_outbound_video_codec.id())); EXPECT_EQ(expected_outbound_video_codec, report->Get(expected_outbound_video_codec.id())->cast_to< RTCCodecStats>()); } TEST_F(RTCStatsCollectorTest, CollectRTCCertificateStatsMultiple) { std::unique_ptr audio_local_certinfo = CreateFakeCertificateAndInfoFromDers( std::vector({ "(local) audio" })); audio_local_certinfo = CreateFakeCertificateAndInfoFromDers( audio_local_certinfo->ders); std::unique_ptr audio_remote_certinfo = CreateFakeCertificateAndInfoFromDers( std::vector({ "(remote) audio" })); audio_remote_certinfo = CreateFakeCertificateAndInfoFromDers( audio_remote_certinfo->ders); std::unique_ptr video_local_certinfo = CreateFakeCertificateAndInfoFromDers( std::vector({ "(local) video" })); video_local_certinfo = CreateFakeCertificateAndInfoFromDers( video_local_certinfo->ders); std::unique_ptr video_remote_certinfo = CreateFakeCertificateAndInfoFromDers( std::vector({ "(remote) video" })); video_remote_certinfo = CreateFakeCertificateAndInfoFromDers( video_remote_certinfo->ders); // Mock the session to return the local and remote certificates. EXPECT_CALL(test_->session(), GetStats(_)).WillRepeatedly(Invoke( [this](const ChannelNamePairs&) { std::unique_ptr stats(new SessionStats()); stats->transport_stats["audio"].transport_name = "audio"; stats->transport_stats["video"].transport_name = "video"; return stats; })); EXPECT_CALL(test_->session(), GetLocalCertificate(_, _)).WillRepeatedly( Invoke([this, &audio_local_certinfo, &video_local_certinfo]( const std::string& transport_name, rtc::scoped_refptr* certificate) { if (transport_name == "audio") { *certificate = audio_local_certinfo->certificate; return true; } if (transport_name == "video") { *certificate = video_local_certinfo->certificate; return true; } return false; })); EXPECT_CALL(test_->session(), GetRemoteSSLCertificate_ReturnsRawPointer(_)).WillRepeatedly(Invoke( [this, &audio_remote_certinfo, &video_remote_certinfo]( const std::string& transport_name) { if (transport_name == "audio") { return audio_remote_certinfo->certificate->ssl_certificate() .GetReference(); } if (transport_name == "video") { return video_remote_certinfo->certificate->ssl_certificate() .GetReference(); } return static_cast(nullptr); })); rtc::scoped_refptr report = GetStatsReport(); ExpectReportContainsCertificateInfo(report, *audio_local_certinfo.get()); ExpectReportContainsCertificateInfo(report, *audio_remote_certinfo.get()); ExpectReportContainsCertificateInfo(report, *video_local_certinfo.get()); ExpectReportContainsCertificateInfo(report, *video_remote_certinfo.get()); } TEST_F(RTCStatsCollectorTest, CollectRTCCertificateStatsChain) { std::vector local_ders; local_ders.push_back("(local) this"); local_ders.push_back("(local) is"); local_ders.push_back("(local) a"); local_ders.push_back("(local) chain"); std::unique_ptr local_certinfo = CreateFakeCertificateAndInfoFromDers(local_ders); std::vector remote_ders; remote_ders.push_back("(remote) this"); remote_ders.push_back("(remote) is"); remote_ders.push_back("(remote) another"); remote_ders.push_back("(remote) chain"); std::unique_ptr remote_certinfo = CreateFakeCertificateAndInfoFromDers(remote_ders); // Mock the session to return the local and remote certificates. EXPECT_CALL(test_->session(), GetStats(_)).WillRepeatedly(Invoke( [this](const ChannelNamePairs&) { std::unique_ptr stats(new SessionStats()); stats->transport_stats["transport"].transport_name = "transport"; return stats; })); EXPECT_CALL(test_->session(), GetLocalCertificate(_, _)).WillRepeatedly( Invoke([this, &local_certinfo](const std::string& transport_name, rtc::scoped_refptr* certificate) { if (transport_name == "transport") { *certificate = local_certinfo->certificate; return true; } return false; })); EXPECT_CALL(test_->session(), GetRemoteSSLCertificate_ReturnsRawPointer(_)).WillRepeatedly(Invoke( [this, &remote_certinfo](const std::string& transport_name) { if (transport_name == "transport") return remote_certinfo->certificate->ssl_certificate().GetReference(); return static_cast(nullptr); })); rtc::scoped_refptr report = GetStatsReport(); ExpectReportContainsCertificateInfo(report, *local_certinfo.get()); ExpectReportContainsCertificateInfo(report, *remote_certinfo.get()); } TEST_F(RTCStatsCollectorTest, CollectRTCDataChannelStats) { test_->data_channels().push_back( new MockDataChannel( 0, "MockDataChannel0", DataChannelInterface::kConnecting, "udp", 1, 2, 3, 4)); RTCDataChannelStats expected_data_channel0("RTCDataChannel_0", 0); expected_data_channel0.label = "MockDataChannel0"; expected_data_channel0.protocol = "udp"; expected_data_channel0.datachannelid = 0; expected_data_channel0.state = "connecting"; expected_data_channel0.messages_sent = 1; expected_data_channel0.bytes_sent = 2; expected_data_channel0.messages_received = 3; expected_data_channel0.bytes_received = 4; test_->data_channels().push_back( new MockDataChannel( 1, "MockDataChannel1", DataChannelInterface::kOpen, "tcp", 5, 6, 7, 8)); RTCDataChannelStats expected_data_channel1("RTCDataChannel_1", 0); expected_data_channel1.label = "MockDataChannel1"; expected_data_channel1.protocol = "tcp"; expected_data_channel1.datachannelid = 1; expected_data_channel1.state = "open"; expected_data_channel1.messages_sent = 5; expected_data_channel1.bytes_sent = 6; expected_data_channel1.messages_received = 7; expected_data_channel1.bytes_received = 8; test_->data_channels().push_back( new MockDataChannel( 2, "MockDataChannel2", DataChannelInterface::kClosing, "udp", 9, 10, 11, 12)); RTCDataChannelStats expected_data_channel2("RTCDataChannel_2", 0); expected_data_channel2.label = "MockDataChannel2"; expected_data_channel2.protocol = "udp"; expected_data_channel2.datachannelid = 2; expected_data_channel2.state = "closing"; expected_data_channel2.messages_sent = 9; expected_data_channel2.bytes_sent = 10; expected_data_channel2.messages_received = 11; expected_data_channel2.bytes_received = 12; test_->data_channels().push_back( new MockDataChannel( 3, "MockDataChannel3", DataChannelInterface::kClosed, "tcp", 13, 14, 15, 16)); RTCDataChannelStats expected_data_channel3("RTCDataChannel_3", 0); expected_data_channel3.label = "MockDataChannel3"; expected_data_channel3.protocol = "tcp"; expected_data_channel3.datachannelid = 3; expected_data_channel3.state = "closed"; expected_data_channel3.messages_sent = 13; expected_data_channel3.bytes_sent = 14; expected_data_channel3.messages_received = 15; expected_data_channel3.bytes_received = 16; rtc::scoped_refptr report = GetStatsReport(); ASSERT_TRUE(report->Get(expected_data_channel0.id())); EXPECT_EQ(expected_data_channel0, report->Get(expected_data_channel0.id())->cast_to< RTCDataChannelStats>()); ASSERT_TRUE(report->Get(expected_data_channel1.id())); EXPECT_EQ(expected_data_channel1, report->Get(expected_data_channel1.id())->cast_to< RTCDataChannelStats>()); ASSERT_TRUE(report->Get(expected_data_channel2.id())); EXPECT_EQ(expected_data_channel2, report->Get(expected_data_channel2.id())->cast_to< RTCDataChannelStats>()); ASSERT_TRUE(report->Get(expected_data_channel3.id())); EXPECT_EQ(expected_data_channel3, report->Get(expected_data_channel3.id())->cast_to< RTCDataChannelStats>()); } TEST_F(RTCStatsCollectorTest, CollectRTCIceCandidateStats) { // Candidates in the first transport stats. std::unique_ptr a_local_host = CreateFakeCandidate( "1.2.3.4", 5, "a_local_host's protocol", cricket::LOCAL_PORT_TYPE, 0); std::unique_ptr a_remote_srflx = CreateFakeCandidate( "6.7.8.9", 10, "remote_srflx's protocol", cricket::STUN_PORT_TYPE, 1); std::unique_ptr a_local_prflx = CreateFakeCandidate( "11.12.13.14", 15, "a_local_prflx's protocol", cricket::PRFLX_PORT_TYPE, 2); std::unique_ptr a_remote_relay = CreateFakeCandidate( "16.17.18.19", 20, "a_remote_relay's protocol", cricket::RELAY_PORT_TYPE, 3); // Candidates in the second transport stats. std::unique_ptr b_local = CreateFakeCandidate( "42.42.42.42", 42, "b_local's protocol", cricket::LOCAL_PORT_TYPE, 42); std::unique_ptr b_remote = CreateFakeCandidate( "42.42.42.42", 42, "b_remote's protocol", cricket::LOCAL_PORT_TYPE, 42); SessionStats session_stats; cricket::TransportChannelStats a_transport_channel_stats; a_transport_channel_stats.connection_infos.push_back( cricket::ConnectionInfo()); a_transport_channel_stats.connection_infos[0].local_candidate = *a_local_host.get(); a_transport_channel_stats.connection_infos[0].remote_candidate = *a_remote_srflx.get(); a_transport_channel_stats.connection_infos.push_back( cricket::ConnectionInfo()); a_transport_channel_stats.connection_infos[1].local_candidate = *a_local_prflx.get(); a_transport_channel_stats.connection_infos[1].remote_candidate = *a_remote_relay.get(); session_stats.transport_stats["a"].transport_name = "a"; session_stats.transport_stats["a"].channel_stats.push_back( a_transport_channel_stats); cricket::TransportChannelStats b_transport_channel_stats; b_transport_channel_stats.connection_infos.push_back( cricket::ConnectionInfo()); b_transport_channel_stats.connection_infos[0].local_candidate = *b_local.get(); b_transport_channel_stats.connection_infos[0].remote_candidate = *b_remote.get(); session_stats.transport_stats["b"].transport_name = "b"; session_stats.transport_stats["b"].channel_stats.push_back( b_transport_channel_stats); // Mock the session to return the desired candidates. EXPECT_CALL(test_->session(), GetStats(_)).WillRepeatedly(Invoke( [&session_stats](const ChannelNamePairs&) { return std::unique_ptr(new SessionStats(session_stats)); })); rtc::scoped_refptr report = GetStatsReport(); ExpectReportContainsCandidate(report, *a_local_host.get(), true); ExpectReportContainsCandidate(report, *a_remote_srflx.get(), false); ExpectReportContainsCandidate(report, *a_local_prflx.get(), true); ExpectReportContainsCandidate(report, *a_remote_relay.get(), false); ExpectReportContainsCandidate(report, *b_local.get(), true); ExpectReportContainsCandidate(report, *b_remote.get(), false); } TEST_F(RTCStatsCollectorTest, CollectRTCIceCandidatePairStats) { std::unique_ptr local_candidate = CreateFakeCandidate( "42.42.42.42", 42, "protocol", cricket::LOCAL_PORT_TYPE, 42); std::unique_ptr remote_candidate = CreateFakeCandidate( "42.42.42.42", 42, "protocol", cricket::LOCAL_PORT_TYPE, 42); SessionStats session_stats; cricket::ConnectionInfo connection_info; connection_info.local_candidate = *local_candidate.get(); connection_info.remote_candidate = *remote_candidate.get(); connection_info.writable = true; connection_info.sent_total_bytes = 42; connection_info.recv_total_bytes = 1234; connection_info.rtt = 1337; connection_info.recv_ping_requests = 2020; connection_info.sent_ping_requests_total = 2020; connection_info.sent_ping_requests_before_first_response = 2000; connection_info.recv_ping_responses = 4321; connection_info.sent_ping_responses = 1000; cricket::TransportChannelStats transport_channel_stats; transport_channel_stats.component = cricket::ICE_CANDIDATE_COMPONENT_RTP; transport_channel_stats.connection_infos.push_back(connection_info); session_stats.transport_stats["transport"].transport_name = "transport"; session_stats.transport_stats["transport"].channel_stats.push_back( transport_channel_stats); // Mock the session to return the desired candidates. EXPECT_CALL(test_->session(), GetStats(_)).WillRepeatedly(Invoke( [&session_stats](const ChannelNamePairs&) { return std::unique_ptr(new SessionStats(session_stats)); })); rtc::scoped_refptr report = GetStatsReport(); RTCIceCandidatePairStats expected_pair("RTCIceCandidatePair_" + local_candidate->id() + "_" + remote_candidate->id(), report->timestamp_us()); expected_pair.transport_id = "RTCTransport_transport_" + rtc::ToString<>(cricket::ICE_CANDIDATE_COMPONENT_RTP); expected_pair.local_candidate_id = "RTCIceCandidate_" + local_candidate->id(); expected_pair.remote_candidate_id = "RTCIceCandidate_" + remote_candidate->id(); expected_pair.writable = true; expected_pair.bytes_sent = 42; expected_pair.bytes_received = 1234; expected_pair.current_round_trip_time = 1.337; expected_pair.requests_received = 2020; expected_pair.requests_sent = 2000; expected_pair.responses_received = 4321; expected_pair.responses_sent = 1000; expected_pair.consent_requests_sent = (2020 - 2000); ASSERT_TRUE(report->Get(expected_pair.id())); EXPECT_EQ( expected_pair, report->Get(expected_pair.id())->cast_to()); ASSERT_TRUE(report->Get(*expected_pair.local_candidate_id)); ExpectReportContainsCandidate(report, connection_info.local_candidate, true); ASSERT_TRUE(report->Get(*expected_pair.remote_candidate_id)); ExpectReportContainsCandidate(report, connection_info.remote_candidate, false); } TEST_F(RTCStatsCollectorTest, CollectRTCPeerConnectionStats) { { rtc::scoped_refptr report = GetStatsReport(); RTCPeerConnectionStats expected("RTCPeerConnection", report->timestamp_us()); expected.data_channels_opened = 0; expected.data_channels_closed = 0; ASSERT_TRUE(report->Get("RTCPeerConnection")); EXPECT_EQ(expected, report->Get("RTCPeerConnection")->cast_to< RTCPeerConnectionStats>()); } rtc::scoped_refptr dummy_channel_a = DataChannel::Create( nullptr, cricket::DCT_NONE, "DummyChannelA", InternalDataChannelInit()); test_->pc().SignalDataChannelCreated(dummy_channel_a.get()); rtc::scoped_refptr dummy_channel_b = DataChannel::Create( nullptr, cricket::DCT_NONE, "DummyChannelB", InternalDataChannelInit()); test_->pc().SignalDataChannelCreated(dummy_channel_b.get()); dummy_channel_a->SignalOpened(dummy_channel_a.get()); // Closing a channel that is not opened should not affect the counts. dummy_channel_b->SignalClosed(dummy_channel_b.get()); { collector_->ClearCachedStatsReport(); rtc::scoped_refptr report = GetStatsReport(); RTCPeerConnectionStats expected("RTCPeerConnection", report->timestamp_us()); expected.data_channels_opened = 1; expected.data_channels_closed = 0; ASSERT_TRUE(report->Get("RTCPeerConnection")); EXPECT_EQ(expected, report->Get("RTCPeerConnection")->cast_to< RTCPeerConnectionStats>()); } dummy_channel_b->SignalOpened(dummy_channel_b.get()); dummy_channel_b->SignalClosed(dummy_channel_b.get()); { collector_->ClearCachedStatsReport(); rtc::scoped_refptr report = GetStatsReport(); RTCPeerConnectionStats expected("RTCPeerConnection", report->timestamp_us()); expected.data_channels_opened = 2; expected.data_channels_closed = 1; ASSERT_TRUE(report->Get("RTCPeerConnection")); EXPECT_EQ(expected, report->Get("RTCPeerConnection")->cast_to< RTCPeerConnectionStats>()); } } TEST_F(RTCStatsCollectorTest, CollectRTCMediaStreamStatsAndRTCMediaStreamTrackStats_Audio) { rtc::scoped_refptr local_streams = StreamCollection::Create(); rtc::scoped_refptr remote_streams = StreamCollection::Create(); EXPECT_CALL(test_->pc(), local_streams()) .WillRepeatedly(Return(local_streams)); EXPECT_CALL(test_->pc(), remote_streams()) .WillRepeatedly(Return(remote_streams)); rtc::scoped_refptr local_stream = MediaStream::Create("LocalStreamLabel"); local_streams->AddStream(local_stream); rtc::scoped_refptr remote_stream = MediaStream::Create("RemoteStreamLabel"); remote_streams->AddStream(remote_stream); // Local audio track AudioProcessorInterface::AudioProcessorStats local_audio_processor_stats; local_audio_processor_stats.echo_return_loss = 42; local_audio_processor_stats.echo_return_loss_enhancement = 52; rtc::scoped_refptr local_audio_track = FakeAudioTrackForStats::Create( "LocalAudioTrackID", MediaStreamTrackInterface::TrackState::kEnded, 32767, new FakeAudioProcessorForStats(local_audio_processor_stats)); local_stream->AddTrack(local_audio_track); // Remote audio track AudioProcessorInterface::AudioProcessorStats remote_audio_processor_stats; remote_audio_processor_stats.echo_return_loss = 13; remote_audio_processor_stats.echo_return_loss_enhancement = 37; rtc::scoped_refptr remote_audio_track = FakeAudioTrackForStats::Create( "RemoteAudioTrackID", MediaStreamTrackInterface::TrackState::kLive, 0, new FakeAudioProcessorForStats(remote_audio_processor_stats)); remote_stream->AddTrack(remote_audio_track); rtc::scoped_refptr report = GetStatsReport(); RTCMediaStreamStats expected_local_stream( "RTCMediaStream_local_LocalStreamLabel", report->timestamp_us()); expected_local_stream.stream_identifier = local_stream->label(); expected_local_stream.track_ids = std::vector(); expected_local_stream.track_ids->push_back( "RTCMediaStreamTrack_LocalAudioTrackID"); ASSERT_TRUE(report->Get(expected_local_stream.id())); EXPECT_EQ(expected_local_stream, report->Get(expected_local_stream.id())->cast_to< RTCMediaStreamStats>()); RTCMediaStreamStats expected_remote_stream( "RTCMediaStream_remote_RemoteStreamLabel", report->timestamp_us()); expected_remote_stream.stream_identifier = remote_stream->label(); expected_remote_stream.track_ids = std::vector(); expected_remote_stream.track_ids->push_back( "RTCMediaStreamTrack_RemoteAudioTrackID"); ASSERT_TRUE(report->Get(expected_remote_stream.id())); EXPECT_EQ(expected_remote_stream, report->Get(expected_remote_stream.id())->cast_to< RTCMediaStreamStats>()); RTCMediaStreamTrackStats expected_local_audio_track( "RTCMediaStreamTrack_LocalAudioTrackID", report->timestamp_us()); expected_local_audio_track.track_identifier = local_audio_track->id(); expected_local_audio_track.remote_source = false; expected_local_audio_track.ended = true; expected_local_audio_track.detached = false; expected_local_audio_track.audio_level = 1.0; expected_local_audio_track.echo_return_loss = 42.0; expected_local_audio_track.echo_return_loss_enhancement = 52.0; ASSERT_TRUE(report->Get(expected_local_audio_track.id())); EXPECT_EQ(expected_local_audio_track, report->Get(expected_local_audio_track.id())->cast_to< RTCMediaStreamTrackStats>()); RTCMediaStreamTrackStats expected_remote_audio_track( "RTCMediaStreamTrack_RemoteAudioTrackID", report->timestamp_us()); expected_remote_audio_track.track_identifier = remote_audio_track->id(); expected_remote_audio_track.remote_source = true; expected_remote_audio_track.ended = false; expected_remote_audio_track.detached = false; expected_remote_audio_track.audio_level = 0.0; expected_remote_audio_track.echo_return_loss = 13.0; expected_remote_audio_track.echo_return_loss_enhancement = 37.0; ASSERT_TRUE(report->Get(expected_remote_audio_track.id())); EXPECT_EQ(expected_remote_audio_track, report->Get(expected_remote_audio_track.id())->cast_to< RTCMediaStreamTrackStats>()); } TEST_F(RTCStatsCollectorTest, CollectRTCMediaStreamStatsAndRTCMediaStreamTrackStats_Audio_Defaults) { rtc::scoped_refptr local_streams = StreamCollection::Create(); EXPECT_CALL(test_->pc(), local_streams()) .WillRepeatedly(Return(local_streams)); rtc::scoped_refptr local_stream = MediaStream::Create("LocalStreamLabel"); local_streams->AddStream(local_stream); // Local audio track AudioProcessorInterface::AudioProcessorStats local_audio_processor_stats; local_audio_processor_stats.echo_return_loss = -100; local_audio_processor_stats.echo_return_loss_enhancement = -100; rtc::scoped_refptr local_audio_track = FakeAudioTrackForStats::Create( "LocalAudioTrackID", MediaStreamTrackInterface::TrackState::kEnded, 32767, new FakeAudioProcessorForStats(local_audio_processor_stats)); local_stream->AddTrack(local_audio_track); rtc::scoped_refptr report = GetStatsReport(); RTCMediaStreamTrackStats expected_local_audio_track( "RTCMediaStreamTrack_LocalAudioTrackID", report->timestamp_us()); expected_local_audio_track.track_identifier = local_audio_track->id(); expected_local_audio_track.remote_source = false; expected_local_audio_track.ended = true; expected_local_audio_track.detached = false; expected_local_audio_track.audio_level = 1.0; // Should be undefined: |expected_local_audio_track.echo_return_loss| and // |expected_local_audio_track.echo_return_loss_enhancement|. ASSERT_TRUE(report->Get(expected_local_audio_track.id())); EXPECT_EQ(expected_local_audio_track, report->Get(expected_local_audio_track.id())->cast_to< RTCMediaStreamTrackStats>()); } TEST_F(RTCStatsCollectorTest, CollectRTCMediaStreamStatsAndRTCMediaStreamTrackStats_Video) { rtc::scoped_refptr local_streams = StreamCollection::Create(); rtc::scoped_refptr remote_streams = StreamCollection::Create(); EXPECT_CALL(test_->pc(), local_streams()) .WillRepeatedly(Return(local_streams)); EXPECT_CALL(test_->pc(), remote_streams()) .WillRepeatedly(Return(remote_streams)); rtc::scoped_refptr local_stream = MediaStream::Create("LocalStreamLabel"); local_streams->AddStream(local_stream); rtc::scoped_refptr remote_stream = MediaStream::Create("RemoteStreamLabel"); remote_streams->AddStream(remote_stream); // Local video track VideoTrackSourceInterface::Stats local_video_track_source_stats; local_video_track_source_stats.input_width = 1234; local_video_track_source_stats.input_height = 4321; rtc::scoped_refptr local_video_track_source = new FakeVideoTrackSourceForStats(local_video_track_source_stats); rtc::scoped_refptr local_video_track = FakeVideoTrackForStats::Create( "LocalVideoTrackID", MediaStreamTrackInterface::TrackState::kLive, local_video_track_source); local_stream->AddTrack(local_video_track); // Remote video track VideoTrackSourceInterface::Stats remote_video_track_source_stats; remote_video_track_source_stats.input_width = 1234; remote_video_track_source_stats.input_height = 4321; rtc::scoped_refptr remote_video_track_source = new FakeVideoTrackSourceForStats(remote_video_track_source_stats); rtc::scoped_refptr remote_video_track = FakeVideoTrackForStats::Create( "RemoteVideoTrackID", MediaStreamTrackInterface::TrackState::kEnded, remote_video_track_source); remote_stream->AddTrack(remote_video_track); rtc::scoped_refptr report = GetStatsReport(); RTCMediaStreamStats expected_local_stream( "RTCMediaStream_local_LocalStreamLabel", report->timestamp_us()); expected_local_stream.stream_identifier = local_stream->label(); expected_local_stream.track_ids = std::vector(); expected_local_stream.track_ids->push_back( "RTCMediaStreamTrack_LocalVideoTrackID"); ASSERT_TRUE(report->Get(expected_local_stream.id())); EXPECT_EQ(expected_local_stream, report->Get(expected_local_stream.id())->cast_to< RTCMediaStreamStats>()); RTCMediaStreamStats expected_remote_stream( "RTCMediaStream_remote_RemoteStreamLabel", report->timestamp_us()); expected_remote_stream.stream_identifier = remote_stream->label(); expected_remote_stream.track_ids = std::vector(); expected_remote_stream.track_ids->push_back( "RTCMediaStreamTrack_RemoteVideoTrackID"); ASSERT_TRUE(report->Get(expected_remote_stream.id())); EXPECT_EQ(expected_remote_stream, report->Get(expected_remote_stream.id())->cast_to< RTCMediaStreamStats>()); RTCMediaStreamTrackStats expected_local_video_track( "RTCMediaStreamTrack_LocalVideoTrackID", report->timestamp_us()); expected_local_video_track.track_identifier = local_video_track->id(); expected_local_video_track.remote_source = false; expected_local_video_track.ended = false; expected_local_video_track.detached = false; expected_local_video_track.frame_width = 1234; expected_local_video_track.frame_height = 4321; ASSERT_TRUE(report->Get(expected_local_video_track.id())); EXPECT_EQ(expected_local_video_track, report->Get(expected_local_video_track.id())->cast_to< RTCMediaStreamTrackStats>()); RTCMediaStreamTrackStats expected_remote_video_track( "RTCMediaStreamTrack_RemoteVideoTrackID", report->timestamp_us()); expected_remote_video_track.track_identifier = remote_video_track->id(); expected_remote_video_track.remote_source = true; expected_remote_video_track.ended = true; expected_remote_video_track.detached = false; expected_remote_video_track.frame_width = 1234; expected_remote_video_track.frame_height = 4321; ASSERT_TRUE(report->Get(expected_remote_video_track.id())); EXPECT_EQ(expected_remote_video_track, report->Get(expected_remote_video_track.id())->cast_to< RTCMediaStreamTrackStats>()); } TEST_F(RTCStatsCollectorTest, CollectRTCInboundRTPStreamStats_Audio) { MockVoiceMediaChannel* voice_media_channel = new MockVoiceMediaChannel(); cricket::VoiceChannel voice_channel( test_->worker_thread(), test_->network_thread(), test_->media_engine(), voice_media_channel, nullptr, "VoiceContentName", kDefaultRtcpEnabled, kDefaultSrtpRequired); cricket::VoiceMediaInfo voice_media_info; voice_media_info.receivers.push_back(cricket::VoiceReceiverInfo()); voice_media_info.receivers[0].local_stats.push_back( cricket::SsrcReceiverInfo()); voice_media_info.receivers[0].local_stats[0].ssrc = 1; voice_media_info.receivers[0].packets_lost = 42; voice_media_info.receivers[0].packets_rcvd = 2; voice_media_info.receivers[0].bytes_rcvd = 3; voice_media_info.receivers[0].codec_payload_type = rtc::Optional(42); voice_media_info.receivers[0].jitter_ms = 4500; voice_media_info.receivers[0].fraction_lost = 5.5f; RtpCodecParameters codec_parameters; codec_parameters.payload_type = 42; codec_parameters.mime_type = "dummy"; codec_parameters.clock_rate = 0; voice_media_info.receive_codecs.insert( std::make_pair(codec_parameters.payload_type, codec_parameters)); EXPECT_CALL(*voice_media_channel, GetStats(_)) .WillOnce(DoAll(SetArgPointee<0>(voice_media_info), Return(true))); SessionStats session_stats; session_stats.proxy_to_transport["VoiceContentName"] = "TransportName"; session_stats.transport_stats["TransportName"].transport_name = "TransportName"; // Make sure the associated |RTCTransportStats| is created. cricket::TransportChannelStats channel_stats; channel_stats.component = cricket::ICE_CANDIDATE_COMPONENT_RTP; session_stats.transport_stats["TransportName"].channel_stats.push_back( channel_stats); EXPECT_CALL(test_->session(), GetStats(_)).WillRepeatedly(Invoke( [&session_stats](const ChannelNamePairs&) { return std::unique_ptr(new SessionStats(session_stats)); })); EXPECT_CALL(test_->session(), voice_channel()) .WillRepeatedly(Return(&voice_channel)); rtc::scoped_refptr report = GetStatsReport(); RTCInboundRTPStreamStats expected_audio( "RTCInboundRTPAudioStream_1", report->timestamp_us()); expected_audio.ssrc = "1"; expected_audio.is_remote = false; expected_audio.media_type = "audio"; expected_audio.transport_id = "RTCTransport_TransportName_" + rtc::ToString<>(cricket::ICE_CANDIDATE_COMPONENT_RTP); expected_audio.codec_id = "RTCCodec_InboundAudio_42"; expected_audio.packets_received = 2; expected_audio.bytes_received = 3; expected_audio.packets_lost = 42; expected_audio.jitter = 4.5; expected_audio.fraction_lost = 5.5; ASSERT(report->Get(expected_audio.id())); const RTCInboundRTPStreamStats& audio = report->Get( expected_audio.id())->cast_to(); EXPECT_EQ(audio, expected_audio); ASSERT_TRUE(report->Get(*expected_audio.transport_id)); ASSERT_TRUE(report->Get(*expected_audio.codec_id)); } TEST_F(RTCStatsCollectorTest, CollectRTCInboundRTPStreamStats_Video) { MockVideoMediaChannel* video_media_channel = new MockVideoMediaChannel(); cricket::VideoChannel video_channel( test_->worker_thread(), test_->network_thread(), video_media_channel, nullptr, "VideoContentName", kDefaultRtcpEnabled, kDefaultSrtpRequired); cricket::VideoMediaInfo video_media_info; video_media_info.receivers.push_back(cricket::VideoReceiverInfo()); video_media_info.receivers[0].local_stats.push_back( cricket::SsrcReceiverInfo()); video_media_info.receivers[0].local_stats[0].ssrc = 1; video_media_info.receivers[0].packets_rcvd = 2; video_media_info.receivers[0].packets_lost = 42; video_media_info.receivers[0].bytes_rcvd = 3; video_media_info.receivers[0].fraction_lost = 4.5f; video_media_info.receivers[0].codec_payload_type = rtc::Optional(42); video_media_info.receivers[0].firs_sent = 5; video_media_info.receivers[0].plis_sent = 6; video_media_info.receivers[0].nacks_sent = 7; RtpCodecParameters codec_parameters; codec_parameters.payload_type = 42; codec_parameters.mime_type = "dummy"; codec_parameters.clock_rate = 0; video_media_info.receive_codecs.insert( std::make_pair(codec_parameters.payload_type, codec_parameters)); EXPECT_CALL(*video_media_channel, GetStats(_)) .WillOnce(DoAll(SetArgPointee<0>(video_media_info), Return(true))); SessionStats session_stats; session_stats.proxy_to_transport["VideoContentName"] = "TransportName"; session_stats.transport_stats["TransportName"].transport_name = "TransportName"; // Make sure the associated |RTCTransportStats| is created. cricket::TransportChannelStats channel_stats; channel_stats.component = cricket::ICE_CANDIDATE_COMPONENT_RTP; session_stats.transport_stats["TransportName"].channel_stats.push_back( channel_stats); EXPECT_CALL(test_->session(), GetStats(_)).WillRepeatedly(Invoke( [&session_stats](const ChannelNamePairs&) { return std::unique_ptr(new SessionStats(session_stats)); })); EXPECT_CALL(test_->session(), video_channel()) .WillRepeatedly(Return(&video_channel)); rtc::scoped_refptr report = GetStatsReport(); RTCInboundRTPStreamStats expected_video( "RTCInboundRTPVideoStream_1", report->timestamp_us()); expected_video.ssrc = "1"; expected_video.is_remote = false; expected_video.media_type = "video"; expected_video.transport_id = "RTCTransport_TransportName_" + rtc::ToString<>(cricket::ICE_CANDIDATE_COMPONENT_RTP); expected_video.codec_id = "RTCCodec_InboundVideo_42"; expected_video.fir_count = 5; expected_video.pli_count = 6; expected_video.nack_count = 7; expected_video.packets_received = 2; expected_video.bytes_received = 3; expected_video.packets_lost = 42; expected_video.fraction_lost = 4.5; ASSERT(report->Get(expected_video.id())); const RTCInboundRTPStreamStats& video = report->Get( expected_video.id())->cast_to(); EXPECT_EQ(video, expected_video); ASSERT_TRUE(report->Get(*expected_video.transport_id)); ASSERT_TRUE(report->Get(*video.codec_id)); } TEST_F(RTCStatsCollectorTest, CollectRTCOutboundRTPStreamStats_Audio) { MockVoiceMediaChannel* voice_media_channel = new MockVoiceMediaChannel(); cricket::VoiceChannel voice_channel( test_->worker_thread(), test_->network_thread(), test_->media_engine(), voice_media_channel, nullptr, "VoiceContentName", kDefaultRtcpEnabled, kDefaultSrtpRequired); cricket::VoiceMediaInfo voice_media_info; voice_media_info.senders.push_back(cricket::VoiceSenderInfo()); voice_media_info.senders[0].local_stats.push_back(cricket::SsrcSenderInfo()); voice_media_info.senders[0].local_stats[0].ssrc = 1; voice_media_info.senders[0].packets_sent = 2; voice_media_info.senders[0].bytes_sent = 3; voice_media_info.senders[0].rtt_ms = 4500; voice_media_info.senders[0].codec_payload_type = rtc::Optional(42); RtpCodecParameters codec_parameters; codec_parameters.payload_type = 42; codec_parameters.mime_type = "dummy"; codec_parameters.clock_rate = 0; voice_media_info.send_codecs.insert( std::make_pair(codec_parameters.payload_type, codec_parameters)); EXPECT_CALL(*voice_media_channel, GetStats(_)) .WillOnce(DoAll(SetArgPointee<0>(voice_media_info), Return(true))); SessionStats session_stats; session_stats.proxy_to_transport["VoiceContentName"] = "TransportName"; session_stats.transport_stats["TransportName"].transport_name = "TransportName"; // Make sure the associated |RTCTransportStats| is created. cricket::TransportChannelStats channel_stats; channel_stats.component = cricket::ICE_CANDIDATE_COMPONENT_RTP; session_stats.transport_stats["TransportName"].channel_stats.push_back( channel_stats); EXPECT_CALL(test_->session(), GetStats(_)).WillRepeatedly(Invoke( [&session_stats](const ChannelNamePairs&) { return std::unique_ptr(new SessionStats(session_stats)); })); EXPECT_CALL(test_->session(), voice_channel()) .WillRepeatedly(Return(&voice_channel)); rtc::scoped_refptr report = GetStatsReport(); RTCOutboundRTPStreamStats expected_audio( "RTCOutboundRTPAudioStream_1", report->timestamp_us()); expected_audio.ssrc = "1"; expected_audio.is_remote = false; expected_audio.media_type = "audio"; expected_audio.transport_id = "RTCTransport_TransportName_" + rtc::ToString<>(cricket::ICE_CANDIDATE_COMPONENT_RTP); expected_audio.codec_id = "RTCCodec_OutboundAudio_42"; expected_audio.packets_sent = 2; expected_audio.bytes_sent = 3; expected_audio.round_trip_time = 4.5; ASSERT(report->Get(expected_audio.id())); const RTCOutboundRTPStreamStats& audio = report->Get( expected_audio.id())->cast_to(); EXPECT_EQ(audio, expected_audio); ASSERT_TRUE(report->Get(*expected_audio.transport_id)); ASSERT_TRUE(report->Get(*expected_audio.codec_id)); } TEST_F(RTCStatsCollectorTest, CollectRTCOutboundRTPStreamStats_Video) { MockVideoMediaChannel* video_media_channel = new MockVideoMediaChannel(); cricket::VideoChannel video_channel( test_->worker_thread(), test_->network_thread(), video_media_channel, nullptr, "VideoContentName", kDefaultRtcpEnabled, kDefaultSrtpRequired); cricket::VideoMediaInfo video_media_info; video_media_info.senders.push_back(cricket::VideoSenderInfo()); video_media_info.senders[0].local_stats.push_back(cricket::SsrcSenderInfo()); video_media_info.senders[0].local_stats[0].ssrc = 1; video_media_info.senders[0].firs_rcvd = 2; video_media_info.senders[0].plis_rcvd = 3; video_media_info.senders[0].nacks_rcvd = 4; video_media_info.senders[0].packets_sent = 5; video_media_info.senders[0].bytes_sent = 6; video_media_info.senders[0].rtt_ms = 7500; video_media_info.senders[0].codec_payload_type = rtc::Optional(42); RtpCodecParameters codec_parameters; codec_parameters.payload_type = 42; codec_parameters.mime_type = "dummy"; codec_parameters.clock_rate = 0; video_media_info.send_codecs.insert( std::make_pair(codec_parameters.payload_type, codec_parameters)); EXPECT_CALL(*video_media_channel, GetStats(_)) .WillOnce(DoAll(SetArgPointee<0>(video_media_info), Return(true))); SessionStats session_stats; session_stats.proxy_to_transport["VideoContentName"] = "TransportName"; session_stats.transport_stats["TransportName"].transport_name = "TransportName"; // Make sure the associated |RTCTransportStats| is created. cricket::TransportChannelStats channel_stats; channel_stats.component = cricket::ICE_CANDIDATE_COMPONENT_RTP; session_stats.transport_stats["TransportName"].channel_stats.push_back( channel_stats); EXPECT_CALL(test_->session(), GetStats(_)).WillRepeatedly(Invoke( [&session_stats](const ChannelNamePairs&) { return std::unique_ptr(new SessionStats(session_stats)); })); EXPECT_CALL(test_->session(), video_channel()) .WillRepeatedly(Return(&video_channel)); rtc::scoped_refptr report = GetStatsReport(); RTCOutboundRTPStreamStats expected_video( "RTCOutboundRTPVideoStream_1", report->timestamp_us()); expected_video.ssrc = "1"; expected_video.is_remote = false; expected_video.media_type = "video"; expected_video.transport_id = "RTCTransport_TransportName_" + rtc::ToString<>(cricket::ICE_CANDIDATE_COMPONENT_RTP); expected_video.codec_id = "RTCCodec_OutboundVideo_42"; expected_video.fir_count = 2; expected_video.pli_count = 3; expected_video.nack_count = 4; expected_video.packets_sent = 5; expected_video.bytes_sent = 6; expected_video.round_trip_time = 7.5; ASSERT(report->Get(expected_video.id())); const RTCOutboundRTPStreamStats& video = report->Get( expected_video.id())->cast_to(); EXPECT_EQ(video, expected_video); ASSERT_TRUE(report->Get(*expected_video.transport_id)); ASSERT_TRUE(report->Get(*expected_video.codec_id)); } TEST_F(RTCStatsCollectorTest, CollectRTCOutboundRTPStreamStats_Default) { MockVoiceMediaChannel* voice_media_channel = new MockVoiceMediaChannel(); cricket::VoiceChannel voice_channel( test_->worker_thread(), test_->network_thread(), test_->media_engine(), voice_media_channel, nullptr, "VoiceContentName", kDefaultRtcpEnabled, kDefaultSrtpRequired); MockVideoMediaChannel* video_media_channel = new MockVideoMediaChannel(); cricket::VideoChannel video_channel( test_->worker_thread(), test_->network_thread(), video_media_channel, nullptr, "VideoContentName", kDefaultRtcpEnabled, kDefaultSrtpRequired); cricket::VoiceMediaInfo voice_media_info; voice_media_info.senders.push_back(cricket::VoiceSenderInfo()); voice_media_info.senders[0].local_stats.push_back(cricket::SsrcSenderInfo()); voice_media_info.senders[0].local_stats[0].ssrc = 1; voice_media_info.senders[0].packets_sent = 2; voice_media_info.senders[0].bytes_sent = 3; voice_media_info.senders[0].rtt_ms = -1; voice_media_info.senders[0].codec_payload_type = rtc::Optional(42); cricket::VideoMediaInfo video_media_info; video_media_info.senders.push_back(cricket::VideoSenderInfo()); video_media_info.senders[0].local_stats.push_back(cricket::SsrcSenderInfo()); video_media_info.senders[0].local_stats[0].ssrc = 1; video_media_info.senders[0].firs_rcvd = 2; video_media_info.senders[0].plis_rcvd = 3; video_media_info.senders[0].nacks_rcvd = 4; video_media_info.senders[0].packets_sent = 5; video_media_info.senders[0].bytes_sent = 6; video_media_info.senders[0].rtt_ms = -1; video_media_info.senders[0].codec_payload_type = rtc::Optional(42); EXPECT_CALL(*voice_media_channel, GetStats(_)) .WillOnce(DoAll(SetArgPointee<0>(voice_media_info), Return(true))); EXPECT_CALL(*video_media_channel, GetStats(_)) .WillOnce(DoAll(SetArgPointee<0>(video_media_info), Return(true))); SessionStats session_stats; session_stats.proxy_to_transport["VoiceContentName"] = "TransportName"; session_stats.proxy_to_transport["VideoContentName"] = "TransportName"; session_stats.transport_stats["TransportName"].transport_name = "TransportName"; // Make sure the associated |RTCTransportStats| is created. cricket::TransportChannelStats channel_stats; channel_stats.component = cricket::ICE_CANDIDATE_COMPONENT_RTP; session_stats.transport_stats["TransportName"].channel_stats.push_back( channel_stats); EXPECT_CALL(test_->session(), GetStats(_)).WillRepeatedly(Invoke( [&session_stats](const ChannelNamePairs&) { return std::unique_ptr(new SessionStats(session_stats)); })); EXPECT_CALL(test_->session(), voice_channel()) .WillRepeatedly(Return(&voice_channel)); EXPECT_CALL(test_->session(), video_channel()) .WillRepeatedly(Return(&video_channel)); rtc::scoped_refptr report = GetStatsReport(); RTCOutboundRTPStreamStats expected_audio( "RTCOutboundRTPAudioStream_1", report->timestamp_us()); expected_audio.ssrc = "1"; expected_audio.is_remote = false; expected_audio.media_type = "audio"; expected_audio.transport_id = "RTCTransport_TransportName_" + rtc::ToString<>(cricket::ICE_CANDIDATE_COMPONENT_RTP); expected_audio.codec_id = "RTCCodec_OutboundAudio_42"; expected_audio.packets_sent = 2; expected_audio.bytes_sent = 3; // |expected_audio.round_trip_time| should be undefined. ASSERT(report->Get(expected_audio.id())); const RTCOutboundRTPStreamStats& audio = report->Get( expected_audio.id())->cast_to(); EXPECT_EQ(audio, expected_audio); RTCOutboundRTPStreamStats expected_video( "RTCOutboundRTPVideoStream_1", report->timestamp_us()); expected_video.ssrc = "1"; expected_video.is_remote = false; expected_video.media_type = "video"; expected_video.transport_id = "RTCTransport_TransportName_" + rtc::ToString<>(cricket::ICE_CANDIDATE_COMPONENT_RTP); expected_video.codec_id = "RTCCodec_OutboundVideo_42"; expected_video.fir_count = 2; expected_video.pli_count = 3; expected_video.nack_count = 4; expected_video.packets_sent = 5; expected_video.bytes_sent = 6; // |expected_video.round_trip_time| should be undefined. ASSERT(report->Get(expected_video.id())); const RTCOutboundRTPStreamStats& video = report->Get( expected_video.id())->cast_to(); EXPECT_EQ(video, expected_video); } TEST_F(RTCStatsCollectorTest, CollectRTCTransportStats) { std::unique_ptr rtp_local_candidate = CreateFakeCandidate( "42.42.42.42", 42, "protocol", cricket::LOCAL_PORT_TYPE, 42); std::unique_ptr rtp_remote_candidate = CreateFakeCandidate("42.42.42.42", 42, "protocol", cricket::LOCAL_PORT_TYPE, 42); std::unique_ptr rtcp_local_candidate = CreateFakeCandidate("42.42.42.42", 42, "protocol", cricket::LOCAL_PORT_TYPE, 42); std::unique_ptr rtcp_remote_candidate = CreateFakeCandidate("42.42.42.42", 42, "protocol", cricket::LOCAL_PORT_TYPE, 42); SessionStats session_stats; session_stats.transport_stats["transport"].transport_name = "transport"; cricket::ConnectionInfo rtp_connection_info; rtp_connection_info.best_connection = false; rtp_connection_info.local_candidate = *rtp_local_candidate.get(); rtp_connection_info.remote_candidate = *rtp_remote_candidate.get(); rtp_connection_info.sent_total_bytes = 42; rtp_connection_info.recv_total_bytes = 1337; cricket::TransportChannelStats rtp_transport_channel_stats; rtp_transport_channel_stats.component = cricket::ICE_CANDIDATE_COMPONENT_RTP; rtp_transport_channel_stats.connection_infos.push_back(rtp_connection_info); session_stats.transport_stats["transport"].channel_stats.push_back( rtp_transport_channel_stats); // Mock the session to return the desired candidates. EXPECT_CALL(test_->session(), GetStats(_)).WillRepeatedly(Invoke( [&session_stats](const ChannelNamePairs&) { return std::unique_ptr(new SessionStats(session_stats)); })); // Get stats without RTCP, an active connection or certificates. rtc::scoped_refptr report = GetStatsReport(); RTCTransportStats expected_rtp_transport( "RTCTransport_transport_" + rtc::ToString<>(cricket::ICE_CANDIDATE_COMPONENT_RTP), report->timestamp_us()); expected_rtp_transport.bytes_sent = 42; expected_rtp_transport.bytes_received = 1337; expected_rtp_transport.active_connection = false; ASSERT_TRUE(report->Get(expected_rtp_transport.id())); EXPECT_EQ( expected_rtp_transport, report->Get(expected_rtp_transport.id())->cast_to()); cricket::ConnectionInfo rtcp_connection_info; rtcp_connection_info.best_connection = false; rtcp_connection_info.local_candidate = *rtcp_local_candidate.get(); rtcp_connection_info.remote_candidate = *rtcp_remote_candidate.get(); rtcp_connection_info.sent_total_bytes = 1337; rtcp_connection_info.recv_total_bytes = 42; cricket::TransportChannelStats rtcp_transport_channel_stats; rtcp_transport_channel_stats.component = cricket::ICE_CANDIDATE_COMPONENT_RTCP; rtcp_transport_channel_stats.connection_infos.push_back(rtcp_connection_info); session_stats.transport_stats["transport"].channel_stats.push_back( rtcp_transport_channel_stats); collector_->ClearCachedStatsReport(); // Get stats with RTCP and without an active connection or certificates. report = GetStatsReport(); RTCTransportStats expected_rtcp_transport( "RTCTransport_transport_" + rtc::ToString<>(cricket::ICE_CANDIDATE_COMPONENT_RTCP), report->timestamp_us()); expected_rtcp_transport.bytes_sent = 1337; expected_rtcp_transport.bytes_received = 42; expected_rtcp_transport.active_connection = false; expected_rtp_transport.rtcp_transport_stats_id = expected_rtcp_transport.id(); ASSERT_TRUE(report->Get(expected_rtp_transport.id())); EXPECT_EQ( expected_rtp_transport, report->Get(expected_rtp_transport.id())->cast_to()); ASSERT_TRUE(report->Get(expected_rtcp_transport.id())); EXPECT_EQ( expected_rtcp_transport, report->Get(expected_rtcp_transport.id())->cast_to()); // Get stats with an active connection. session_stats.transport_stats["transport"] .channel_stats[1] .connection_infos[0] .best_connection = true; collector_->ClearCachedStatsReport(); report = GetStatsReport(); expected_rtcp_transport.active_connection = true; expected_rtcp_transport.selected_candidate_pair_id = "RTCIceCandidatePair_" + rtcp_local_candidate->id() + "_" + rtcp_remote_candidate->id(); ASSERT_TRUE(report->Get(expected_rtp_transport.id())); EXPECT_EQ( expected_rtp_transport, report->Get(expected_rtp_transport.id())->cast_to()); ASSERT_TRUE(report->Get(expected_rtcp_transport.id())); EXPECT_EQ( expected_rtcp_transport, report->Get(expected_rtcp_transport.id())->cast_to()); // Get stats with certificates. std::unique_ptr local_certinfo = CreateFakeCertificateAndInfoFromDers( std::vector({ "(local) local", "(local) chain" })); std::unique_ptr remote_certinfo = CreateFakeCertificateAndInfoFromDers( std::vector({ "(remote) local", "(remote) chain" })); EXPECT_CALL(test_->session(), GetLocalCertificate(_, _)).WillRepeatedly( Invoke([this, &local_certinfo](const std::string& transport_name, rtc::scoped_refptr* certificate) { if (transport_name == "transport") { *certificate = local_certinfo->certificate; return true; } return false; })); EXPECT_CALL(test_->session(), GetRemoteSSLCertificate_ReturnsRawPointer(_)).WillRepeatedly(Invoke( [this, &remote_certinfo](const std::string& transport_name) { if (transport_name == "transport") return remote_certinfo->certificate->ssl_certificate().GetReference(); return static_cast(nullptr); })); collector_->ClearCachedStatsReport(); report = GetStatsReport(); expected_rtp_transport.local_certificate_id = "RTCCertificate_" + local_certinfo->fingerprints[0]; expected_rtp_transport.remote_certificate_id = "RTCCertificate_" + remote_certinfo->fingerprints[0]; expected_rtcp_transport.local_certificate_id = *expected_rtp_transport.local_certificate_id; expected_rtcp_transport.remote_certificate_id = *expected_rtp_transport.remote_certificate_id; ASSERT_TRUE(report->Get(expected_rtp_transport.id())); EXPECT_EQ( expected_rtp_transport, report->Get(expected_rtp_transport.id())->cast_to()); ASSERT_TRUE(report->Get(expected_rtcp_transport.id())); EXPECT_EQ( expected_rtcp_transport, report->Get(expected_rtcp_transport.id())->cast_to()); } class RTCStatsCollectorTestWithFakeCollector : public testing::Test { public: RTCStatsCollectorTestWithFakeCollector() : test_(new rtc::RefCountedObject()), collector_(FakeRTCStatsCollector::Create( &test_->pc(), 50 * rtc::kNumMicrosecsPerMillisec)) { } protected: rtc::scoped_refptr test_; rtc::scoped_refptr collector_; }; TEST_F(RTCStatsCollectorTestWithFakeCollector, ThreadUsageAndResultsMerging) { collector_->VerifyThreadUsageAndResultsMerging(); } } // namespace } // namespace webrtc